Real-time motion management in MRI-guided radiotherapy: Current status and AI-enabled prospects.
Access status:
Open Access
Type
ArticleAuthor/s
Lombardo, EliaDhont, Jennifer
Page, Denis
Garibaldi, Cristina
Kunzel, Luise
Hurkmans, Coen
Tijssen, Rob
Paganelli, Chiara
Liu, Paul
Keall, Paul
Riboldi, M
Kurz, Christopher
Landry, Guillaume
Cusumano, Davide
Fusella, Marco
Placidi, Lorenzo
Abstract
MRI-guided radiotherapy (MRIgRT) is a highly complex treatment modality, allowing adaptation to anatomical changes occurring from one treatment day to the other (inter-fractional), but also to motion occurring during a treatment fraction (intra-fractional). In this vision paper, ...
See moreMRI-guided radiotherapy (MRIgRT) is a highly complex treatment modality, allowing adaptation to anatomical changes occurring from one treatment day to the other (inter-fractional), but also to motion occurring during a treatment fraction (intra-fractional). In this vision paper, we describe the different steps of intra-fractional motion management during MRIgRT, from imaging to beam adaptation, and the solutions currently available both clinically and at a research level. Furthermore, considering the latest developments in the literature, a workflow is foreseen in which motion-induced over- and/or under-dosage is compensated in 3D, with minimal impact to the radiotherapy treatment time. Considering the time constraints of real-time adaptation, a particular focus is put on artificial intelligence (AI) solutions as a fast and accurate alternative to conventional algorithms.
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See moreMRI-guided radiotherapy (MRIgRT) is a highly complex treatment modality, allowing adaptation to anatomical changes occurring from one treatment day to the other (inter-fractional), but also to motion occurring during a treatment fraction (intra-fractional). In this vision paper, we describe the different steps of intra-fractional motion management during MRIgRT, from imaging to beam adaptation, and the solutions currently available both clinically and at a research level. Furthermore, considering the latest developments in the literature, a workflow is foreseen in which motion-induced over- and/or under-dosage is compensated in 3D, with minimal impact to the radiotherapy treatment time. Considering the time constraints of real-time adaptation, a particular focus is put on artificial intelligence (AI) solutions as a fast and accurate alternative to conventional algorithms.
See less
Date
2024Source title
Radiotherapy and OncologyVolume
190Publisher
ElsevierLicence
Creative Commons Attribution 4.0Faculty/School
Faculty of Medicine and HealthDepartment, Discipline or Centre
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